Method and device for disinfecting grounds by generating humidified hot compressed air

ABSTRACT

Method of disinfecting floors by injecting hot, wet compressed air into the floor, this air being produced by a generator, whether on board or not, consisting of two cylinders of different diameters, one ( 1 ) of large diameter into which the atmospheric air is drawn and then compressed in a chamber ( 11 ) to a pressure and temperature sufficient to allow almost instantaneous vaporization of a dose of liquid and the other ( 6 ), facing the chamber, of smaller diameter in which the charge of humidified compressed air will be partly expanded so as to bring it back to the chosen pressure and temperature for use in order to inject it into the floor.

The invention relates to a concept for disinfecting the ground and making it healthier.

It is known that pathological organisms such as nematodes, worms, fungi and bacterial pathogens contained in the soil cause considerable economic damage to crops.

Chemical pesticides and phytosanitary products, or, alternatively, methyl bromide, are currently used to disinfect the ground, these products being highly harmful and causing environmental pollution and contamination of the water table.

In order to remedy the disadvantages of these harmful products an U.S. Pat. No. 5,259,327, has proposed a device for injecting hot water into the ground, and likewise FR-A-2 383 601 discloses a manifold-less device with an on-board generator.

The use of hot water and/or steam entails considerable amounts of equipment; if the boiler is on-board, its size and power is limited because of its weight, and if the boiler is an external boiler then steam has to be transported over long distances through pipes thus losing a considerable amount of heat energy. Furthermore, boilers are energy-greedy and consume vast quantities of fuel.

Using this known technique, the temperature of the steam introduced into the ground needs to be more or less around 100° C. in order to destroy the pathological organisms without rendering the soil sterile.

VERDIVAP is the proprietor of a patent EP 1 479 287 A1, to the content of which reference may be made, which describes a device for disinfecting the ground comprising, in particular, a chassis intended to be moved over the ground, tines intended to penetrate the ground, an external steam generator connected to the chassis by pipes, this device being in the form of a trailed mobile trailer, giving good uniformity of diffusion.

The method of disinfecting the ground according to the invention proposes a lightweight and economical solution and is characterized by the means used taken both in their combination and separately, and most specifically.

This method and this device are defined in the attached claims.

The ground is thus disinfected by injecting into the ground humidified hot air produced by a generator, on-board or otherwise, in which the hot air is produced by compression in a positive-displacement machine, and the compressed hot air is humidified by injecting liquid into it.

The method according to the invention, counter to the teachings of the prior art, produces no steam from water that is heated or superheated, but uses ambient air, which is heated and then humidified.

The generator according to the invention has good flexibility to adapt it to the conditions of use, and in particular so that the outlet flow rate can be adjusted to some extent as can the absolute humidity of the air to suit the condition of the ground being treated and its moisture content.

As a preference, the generator according to the invention consists of two cylinders of different diameters, one being a large-diameter cylinder into which the atmospheric air is aspirated then compressed in a compression chamber to a high enough pressure and temperature that a dose of liquid can thereafter be vaporized almost instantly, and a smaller-diameter other cylinder, opposite said compression and vaporization chamber, and in which the charge of humidified compressed air will be partially expanded in order to bring it back down to the chosen service temperature and pressure.

To provide an entirely nonlimiting concrete example, by compressing the air in said chamber to a pressure of 21 bar, the temperature is raised to about 400° C. and the charge or amount of water introduced into the chamber will therefore be vaporized instantly. This charge is then partially expanded to 8 bar and returns approximately to the ideal temperature for disinfecting the ground, namely about 100° C.

The partial expansion produces work which offsets the amount of energy needed to drive the generator and considerably improves the efficiency of the machine.

In an alternative form of the invention, means for adjusting the outlet pressure and temperature of the generator, such as adjustable relief valves, are installed on the exhaust circuit of the machine, and the hot and humid compressed air produced by the generator is then injected into the ground at a temperature that is chosen to be high enough that it destroys pathological organisms but low enough that it does not sterilize the ground.

According to an alternative form of the invention, said compression and vaporization chamber is equipped with a positive-displacement device such as an adjustable piston so that its volume can be altered in order to be able to adjust the pressure and temperature reached at the end of compression.

An electronic device controls the flow rate of water to be vaporized on the basis of various parameters.

As a preference, the generator according to the invention uses the VERDIVAP mobile trailer according to EP 1 479 287 A1, but other means of injecting air into the ground, such as static plates, spiked harrows, spiked steaming grids, could be used without in any way altering the principle of the present invention.

The invention applies quite specifically to the disinfection of agricultural land to a deep depth and/or at the surface in order to obtain a herbicidal, fungicidal and nematicidal effect.

Other objects, advantages and features of the invention will become apparent from reading the entirely nonlimiting description of one embodiment given with reference to the drawings in which:

FIG. 1 depicts, viewed schematically in longitudinal section, one embodiment of the humid hot compressed air generator according to the invention, during its aspiration and partial expansion phase

FIG. 2 depicts, viewed schematically in longitudinal section, the same generator in its phase of compressing and exhausting the humidified hot compressed air to the device that injects it into the ground

FIG. 3 depicts, viewed schematically in longitudinal section, the generator according to the invention in the end of compression/start of water injection phase.

FIG. 1 depicts, viewed schematically in longitudinal section, one embodiment of the humid hot compressed air generator and shows the cylinder 1 used for the aspiration and compression of the atmospheric air, in which cylinder there slides a piston 2 connected by a connecting rod 3 to the crankpin 4 of a crankshaft 5 mounted to rotate on its axis XX′ and the partial-expansion cylinder 6 in which there slides a piston 7 connected by a connecting rod 8 to the same crankpin 4 of the crankshaft 5 pivoting on its axis XX′. The two pistons 2 and 7 have their piston pins at the same level and operate in parallel with their top dead centers substantially in the same plane. Mounted over this moving assembly is a cylinder head C which comprises an atmospheric air inlet 9 controlled by a valve 10, and a chamber 11 facing the partial-expansion cylinder 6. Above the aspiration/compression cylinder, the plane of the cylinder head leaves a minimum amount of space with respect to the crown of the piston and this space is connected by a duct 13 controlled by a shutter 14. The chamber is fitted with a water injector 15 and with an exhaust duct 16 controlled by a valve 17.

The crankshaft 5 is rotationally driven by a motor, not depicted here, and via its crankpin 4 drives the pistons 2 and 7 which, in FIG. 1, have begun their down-stroke; the inlet valve 10 is therefore open and atmospheric air at ambient temperature is being aspirated into the cylinder 1. Having passed through bottom dead center, the pistons 2 and 7 begin their up-stroke—FIG. 2—and the piston 2 compresses the air admitted during the previous cycle into the chamber 11 through the duct 13, the shutter 14 having been opened and having placed the top of the piston 2 in communication with the chamber 11.

Appreciably before top dead center, FIG. 3, the shutter 14 is closed again and the electronically controlled water injector 15 injects into the chamber 11 a dose of water which, under the effect of the high temperature resulting from the compression, vaporizes instantly. When the pistons 2 and 7 have gone past top dead center, they begin a new down-stroke—FIG. 1—and the pressure of the humid air contained in the chamber 11 is partially reduced in the cylinder, driving the piston down and producing work; it should be noted that the diameter of the piston 7 is calculated such that the expansion of the charge in the chamber 11 to that pressure corresponds substantially to the chosen service pressure and temperature. Having moved through bottom dead center, the pistons 1 and 2 begin their up-stroke and the exhaust valve 17 is opened to allow the discharge of the compressed hot and humid air at the chosen service temperature, this air then being directed toward the equipment that is intended to inject it into the ground.

The abovementioned device uses a connecting rod/crank system that is commonplace in well-known piston engines; it is given by way of example and numerous positive-displacement systems may be used in order to obtain the same thermodynamic cycle and the same results without in any way changing the invention that has just been described.

The invention is not restricted to the exemplary embodiments described and depicted: the materials, control means, and devices described may vary within the limit of equivalents, to produce the same results, and the number of cylinders in the generator, the means of introducing the hot and humid compressed air into the ground can vary, without that in any way changing the invention that has just been described. 

1. A method of disinfecting the ground, characterized in that it consists, in succession, in: producing compressed hot air by compressing air in a positive-displacement machine, humidifying the hot air thus produced by injecting liquid into the compressed hot air, injecting the compressed hot air thus humidified into the ground.
 2. The method of disinfecting the ground as claimed in claim 1, characterized in that the flow rate of liquid injected into the compressed hot air can be adjusted so that the moisture content of the humidified compressed hot air can be adjusted.
 3. A device for implementing the method of disinfecting the ground as claimed in claim 1 and in the form of a trailed mobile trailer, allowing good uniformity of diffusion, and characterized in that it comprises: a generator consisting of a compression chamber (11) in which atmospheric air, having been aspirated and compressed by a piston (2), is raised to a pressure that will increase its temperature; into which chamber (11) water is then injected (15) when the compressed-air temperature is high enough to vaporize the amount of water injected; the compressed and humidified hot air then being partially expanded producing work driving back a piston (7) in a cylinder (6) so as to reach the service pressure and temperature, in order to obtain compressed and humidified hot air ready to be discharged through an exhaust (16) and injected into the ground as the piston (7) rises back up, a chassis intended to be placed on the ground and connected to the generator by pipes tines intended to penetrate the ground and diffuse the compressed and humidified hot air.
 4. The device for implementing the method of disinfecting the ground as claimed in claim 3, characterized in that the amount of water injected into the chamber (11) can be adjusted so as to regulate the absolute moisture content of the compressed and humidified hot air.
 5. The device for implementing the method of disinfecting the ground as claimed in claim 4, characterized in that the system for adjusting the amount of water injected is electronically controlled.
 6. The device for implementing the method of disinfecting the ground as claimed in claims 3, characterized in that the chamber (11) is equipped with a positive-displacement device such as an adjustable piston so that its volume can be altered in order to be able to adjust the pressure and temperature reached at the end of compression.
 7. Devices for applying the thermodynamic cycle for applying the method of disinfecting the ground as claimed in claim 1, characterized in that the positive-displacement compression and partial expansion machine uses so-called rotor methods of the Wankel type, rotary-vane pump type, or the like.
 8. The devices for applying the method of disinfecting as claimed in claim 3, characterized in that means, such as adjustable relief valves, are installed on the exhaust circuit of the machine in order to allow the outlet pressure and temperature of the generator to be adjusted.
 9. A method of disinfecting the ground by using the device as claimed in claim 3, characterized in that it uses a thermodynamic cycle comprising the following steps: aspiration of atmospheric air compression of the aspirated air to a higher temperature injection of water and vaporization of the injected water polytropic partial expansion with work to the service pressure and temperature exhaust and injection into the ground.
 10. The device for implementing the method of disinfecting the ground as claimed in claims 4, characterized in that the chamber (11) is equipped with a positive-displacement device such as an adjustable piston so that its volume can be altered in order to be able to adjust the pressure and temperature reached at the end of compression.
 11. The device for implementing the method of disinfecting the ground as claimed in claims 5, characterized in that the chamber (11) is equipped with a positive-displacement device such as an adjustable piston so that its volume can be altered in order to be able to adjust the pressure and temperature reached at the end of compression.
 12. Devices for applying the thermodynamic cycle for applying the method of disinfecting the ground as claimed in claim 2, characterized in that the positive-displacement compression and partial expansion machine uses so-called rotor methods of the Wankel type, rotary-vane pump type, or the like.
 13. The devices for applying the method of disinfecting as claimed in claim 4, characterized in that means, such as adjustable relief valves, are installed on the exhaust circuit of the machine in order to allow the outlet pressure and temperature of the generator to be adjusted.
 14. The devices for applying the method of disinfecting as claimed in claim 5, characterized in that means, such as adjustable relief valves, are installed on the exhaust circuit of the machine in order to allow the outlet pressure and temperature of the generator to be adjusted.
 15. The devices for applying the method of disinfecting as claimed in claim 6, characterized in that means, such as adjustable relief valves, are installed on the exhaust circuit of the machine in order to allow the outlet pressure and temperature of the generator to be adjusted.
 16. The devices for applying the method of disinfecting as claimed in claim 7, characterized in that means, such as adjustable relief valves, are installed on the exhaust circuit of the machine in order to allow the outlet pressure and temperature of the generator to be adjusted. 